I began her project thesis at the Karolinska Institutet in Stockholm, Sweden, where I Investigate the interaction between the autonomic nervous system and inflammation in calcific aortic valve disease. My academic interests include cardiovascular physiology, aortic stenosis, autonomic nervous system, aortic valve replacement, and integrative physiology. I have experience in both experimental and translational research, with a strong focus on bridging molecular mechanisms and clinical outcomes. My long-term goal is to become a scientist in translational cardiology, advancing innovative strategies for cardiovascular health.

I have not yet had formal teaching responsibilities, as I started my PhD in December 2025. However, I am highly motivated to engage in teaching, particularly in the fields of neuromuscular physiology, autonomic nervous system physiology, and cardiovascular physiology.

I have, however, already supervised two trainees: a third-year medical student and a short-term discovery internship during my stay at the Karolinska Institute.

I hold a strong academic background in integrative physiology and neuroscience. I completed a Master’s degree (M2) in I-Santé: Neuromotor Engineering at Université Jean Monnet, Faculty of Medicine (2023–2024), graduating. Prior to this, I obtained a Master 1 in Integrative Biology and Physiology from Université Lyon 1 (2022–2023), and a bachelor’s degree in animal Physiology and Neurosciences from Université de Poitiers (2019–2022).

My research experience is centered on neuromuscular, cardiovascular, and autonomic physiology. I worked as a research assistant at the University Hospital of Saint-Étienne and later at the Karolinska Institutet in Stockholm (2024–2025), where my research focused on the interface between the autonomic nervous system and inflammation in calcified aortic valve stenosis. This work was presented as a poster during the Karolinska Institutet Molecular Medicine Research Day.

I also completed several research internships at the Interuniversity Laboratory of Biology of Movement (LIBM), investigating metabolic transporters (MCT1/MCT4) in elite athletes’ muscle biopsies and the role of enzymatic regulation and protein synthesis in performance. Earlier, I conducted research on epithelial ion transport and CFTR channels in the context of cystic fibrosis.

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